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Resources 1 - 44 of 44
A 23-page PDF file (644 KB) with a complete set of activities for elementary students (also effective in middle school) to learn about the life cycle of flowering plants with a focus on reproduction. Students predict how many seeds their Fast Plant will produce and engage in planting, growing,...
A 32-page booklet, containing complete instructions for activities at each life cycle stage. The booklet also includes important background information about plant physiology and how to grow Fast Plants. A Growth, Development and Reproduction kit is available. You can also conduct all the...
An article written for children, this reading explains the role of plants as producers. It is written at a grade 4-5 reading level, and it is a good supplement to the evidence that students can observe and record through experimentation with photosynthesis.
In this investigation, students will gather their own evidence to explain how inheritance works. As they observe three generations of Wisconsin Fast Plants, students will unravel a mystery of paternity: What is the father’s phenotype? Is it the same as the mother’s phenotype or the offspring’s...
Download the complete instructions for a high school level inheritance inquiry, using Wisconsin Fast Plants. In this investigation, students gather their own evidence to explain how inheritance works. As they observe three generations of Wisconsin Fast Plants, students unravel a paternity mystery:...
Download this complete unit of instructions to conduct an ecosystem inquiry. In this investigation, students have the opportunity to witness first-hand the dynamic relationship between Brassica butterflies and Wisconsin Fast Plants. Students are responsible for tending the butterflies and plants...
Download this complete and coherently designed, middle school level unit to teach fundamental concepts that underpin the theory of evolution. The unit was collaboratively designed by teachers, college faculty & staff, and the Fast Plants Program at UW-Madison to support student-centered...
Description: In this activity students become acquainted with the anatomy and biology of seeds. They will use lenses and scales and make drawings to scale. Students will measure and calculate magnifications and they will begin to understand relationships among these. They will organize and summarize...
Download and print this colorful "Science Inquiry Map" Poster featuring the web of inquiry processes as described by the Five Essential Features of Inquiry from the National Science Education Standards. In addition, the model of inquiry described by the Five Essential Features aligns directly with...
This document is the step-by-step instructions for planting Fast Plants in a deli-container growing system like is used in Reading Green. The instructions include measurements that are then integrated into mathematics problems that are on the flip side of the planting instructions. The instructions...
This Immersion Unit provides a coherent series of lessons designed to guide students in developing deep conceptual understanding that is aligned with the National standards, key science concepts, and essential features of classroom inquiry (as defined by the National Science Education Standards)....
This pdf includes background information and an activity for engaging students in the processes that occur during pollination, fertilization and seed development in Fast Plants. Pollination is explained and illustrated and an activity for students to pollinate Fast Plants and observe reproductive...
Turnips, Chinese cabbage and Wisconsin Fast Plants (Rbr) look very different. Yet, they actually belong to the same species. This means that they have the same number of chromosomes and they can cross breed and produce fertile offspring. But how can you prove that plants that look so different are...
Background information and activity investigating the Fast Plant nectaries and their functions.
Protocol for germinating Fast Plants pollen in a sucrose-salt solution
This Farming Fast Plants activity introduces a classroom investigation that is easily adaptable for all grade levels and designed to engage teachers and students as investigators. The activity has the practical outcome of producing an abundant supply of Fast Plants seed for future classroom use and...
This fill-in-the-blank timeline is a planning tool for teachers to use when figuring out when to begin the steps associated with conducting a two-generation artificial selection experiment using Fast Plants. Teachers preparing for any selection experiment will find this timeline helpful, including...
This article is designed to help students and teachers think about the nature of various determinants underlying biological variation. Teachers facilitating any selection investigation will find this background information helpful, including those planning for the AP Biology Lab 1 of Big Idea 1:...
Illustrated instructions for constructing and planting in the Fast Plants deli-container growing system. This is a stable growing system that is easy to construct for all age learners, and works well for growing Wisconsin Fast Plants. Made from recycled deli-containers, these growing systems can be...
This four-page handout explains the key steps to follow when caring for Wisconsin Fast Plants (Brassica rapa) throughout their life cycle, from sowing through harvesting seeds. This handout includes information about the materials needed, methods for tending and caring for your plants, and...
These instructions describe how to construct a plant light box from two stackable plastic file crates that are cut, lined with aluminum foil and lit with a 40/42-watt CFL bulb. This 3-page document includes a complete materials list and 12-step assembly instructions with photographs that illustrate...
This is "The Story of Fast Plants" - a short story of the origins of Brassicas and the work of Dr. Paul Williams, developing Brassica rapa. Reading level ~7th grade.
Pollination and Pollen Biology
Download this complete set of lessons for an elementary, NGSS-aligned inquiry that foregrounds engineering practices. During the days that are supported by this investigation, students observe flowers on their 14 to 16 day old Fast Plants along with bee structures, learning to connect how the shape...
This 2-page handout gives instructions for making the seed sponge model that was developed by the Wisconsin Fast Plants Program as a tool for learning about germination. Visualizing what is inside a seed and how those structures function during germination is modeled, using a simple kitchen sponge....
Illustrated instructions for constructing and planting seed disks in the Fast Plants deli-container growing system. This is a stable growing system that is easy to construct for all age learners, and works well for growing Wisconsin Fast Plants. Made from recycled deli-containers, these growing...
These data sets were meticulously collected by Dr. Paul Williams in an investigation in which we were interested in learning about how nutrient limitations effect a variety of easily observable and measureable Fast Plant traits. Observations were made and recorded at different points in the plants'...
Who knew that rocket science could have so much in common with botany and plant pathology? This is a human interest and science story that documents from firsthand accounts and artifacts the historical context and scientific events relevant to an important collaborative Fast Plant investigation on...
Download this comprehensive, 60-page elementary unit that was co-developed by the Fast Plants Program and Emily Miller (ELA/science elementary science education specialist) who helped author the Next Generation Science Standards) as an exemplar for supporting three-dimensional learning. Developed in...
This is a printable poster resource developed by a collaboration of educators in the POSOH Project for teaching about systems and scale. This poster correlates with an excerpt from the video Cosmic Voyage about systems and scale, narrated by Morgan Freeman. A debrief discussion of that video excerpt...
Part of the Fast Plants website, the "Grow" section offers complete instructions for preparing to grow, planting, tending, pollinating, and harvesting Wisconsin Fast Plants seeds. Instructions include text descriptions, photos, videos, and PDF instructions that can be downloaded, including a...
This document includes a timeline and calendar to serve as planning tools for teachers to use when figuring out when to begin the steps associated with conducting a two-generation artificial selection experiment using Fast Plants. This investigation focuses on selection for the stem color trait....
This investigation begins with a phenomenon that is evidenced in most every produce aisle: Many of the vegetables that botanists classify as Brassica look and taste different. This investigation aligns with middle and high school Next Generation Science Standards as well as with agricultural science...
This 5-page handout aims to help students and their adult mentors explore topics and questions about the natural world and/or Fast Plants growth and development that could be investigated through research and experimentation. The handout is intended to inspire scientific question development that...
This blog post by the Fast Plants Team provides a materials list and instructions for a Do-It-Yourself, LED Grow Light that is ideal for Fast Plants growth. This grow light uses cost-effective materials that can be obtained online and from a local hardware store. The light is easy to construct,...
This blog post from the Wisconsin Fast Plants features open source educator resources, developed in 2023. These NGSS- and Ag-Standards aligned resources, named Investigating Brassicas Around the World with Fast Plants include a full lesson plan with supporting plant breeding activities, video about...
This blog post from the Wisconsin Fast Plants features open source educator resources, developed in 2023. These resources support the teaching of genetics concepts with tools focused on a Dihybrid Inheritance Study. This study provides a two-week approach for observing three generations of plant...
Preparing Your Students for the Future: Undergraduate Research Experiences with RapidCycling Brassic
This article with practical instructions about using Fast Plants in undergraduate research experiences was published as an addendum to a workshop given at the 2017 ABLE Conference in Madison, WI. Contains ideas for helping students at high school and undergraduate levels to conduct independent...
This activity is designed for teaching the functions of basic plant structures. The activity uses two types of matching cards containing either
a) Structures - depictions of plant structures
b) Functions - descriptions of the function of plant structures
Using the downloadable PDF (including...
This PDF document shows three calendars side-by-side for comparing the time and materials needed for three different versions of the Fast Plants Polycot Selection Investigation.
Option A involves Fast Plants grown in soil, and students select for or against polycots, then produce their own...
This PDF document shows in greater detail the possible day-to-day learning associated with the 3-week version of the Fast Plants Polycot Selection Investigation.
Conducting this selection investigation in just 3 weeks involves using Polycot Fast Plants seed lines for both Generation 1 and 2...
This PDF document shows three calendars side-by-side for comparing the time and materials needed for three different versions of the Fast Plants Mendelian Inheritance Investigation that is commonly called "Who's the Father?"
Option A involves students growing the F1 generation of Fast Plants in...
This PDF document shows in detail the possible day-to-day learning associated with the 6-week version of the Fast Plants Polycot Selection / Plant Breeding Investigation (aka Option A).
Conducting this selection / plant breeding investigation uses Generation 1 Polycot Fast Plants seed lines, with...
In this set of lessons and Fast Plants experiment, students investigate how plants harness and use different sources of energy during germination and growth. Students ask questions and make predictions about the sources of energy that plants use. They then plan and carry out investigations using...
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